An electronic system for a firearm includes a power source, one or more electrical conductors electrically connected to receive power from the power source, and a plurality of electronic devices. Each electronic device has an electrical input configured to receive power from the one or more electrical conductors to power the electronic device. A communication device is configured for data communication across the one or more electrical conductors. A method of communicating between electronic devices connected to a firearm includes powering a plurality of electronic devices connected to a firearm from a power source through one or more electrical conductors, and communicating data between the plurality of electronic devices across the one or more electrical conductors.

A human transported weapon is comprised of a barrel, computational logic, selection logic, targeting location logic, positioning logic, and, trigger activation logic. The barrel fires munitions therefrom. The computational logic, identifies targets within range of an area of sighting of the human transported weapon as available target. The selection logic determines a selected target from the available targets, responsive to computational logic. The targeting location logic determines a target location of the selected target at a firing time. The positioning logic, positions the aim of the human transported weapon, responsive to computational logic, so that the munitions will strike the selected target when fired at the firing time. The trigger activation logic provides a trigger signal to activate firing of the munitions at the firing time. In one embodiment, the trigger signal is responsive to a user input. In one embodiment, there are a plurality of types of said targets, such as comprised of human, non-human, animal, friend, and foe. The selection logic identifies one said type of target as a selected type, and, one of the available targets of the selected type is chosen to be the selected target.

A network of scopes, including one or more lead scopes and one or more follower scopes, is provided to allow scope operators of the respective scopes to track the same presumed target. A lead scope locates a target and communicates target position data of the presumed target to the follower scope. The follower scope uses the target position data and its own position data to electronically generate indicators for use to prompt the operator of the follower scope to make position movements so as to re-position the follower scope from its current target position to move towards the target position defined by the target position data received from the lead scope.

A weapons system is comprised of a human transported weapon for firing a munition through a barrel aimed towards an identified target, a targeting subsystem, a decision subsystem, a weapons aim adjustment controller, and, a targeting subsystem for choosing, from up to a plurality of targets, one said target as a selected target in a field of view of the human transported weapon. The targeting subsystem chooses, from up to a plurality of targets, one said target as a selected target in a field of view of the human transported weapon. The decision subsystem compares where the selected target is located versus where the barrel is aimed. The weapons aim adjustment controller, adjusts aim of the barrel so that when fired, the munition will hit the selected target, responsive to the decision subsystem. The firing subsystem fires the munitions at the selected target at a first firing time responsive to the weapons aim adjustment controller. The munition is tracked after it is fired, to generate tracked munitions data. The selected target is tracked after the munitions is fired, to generate tracked target data.

Certain aspects of a novel weapon sight system combine a direct view, a visible light video view, and an infrared (IR) video view mode. Each of the view modes may be viewed individually or simultaneously with one or more of the other view modes through a single viewing aperture. Further, the one or more view-modes may be provided while providing a bore-sighted reticle superimposed on the selected view. Further, the reticle may be powered separately from the video view electronics enabling use of the reticle regardless of the power status video view electronics.

The disclosure relates to a viewing optic. In one embodiment, the disclosure relates to a viewing optic with an active display and a mounting system for an enabler device. In one embodiment, the disclosure relates to a viewing optic having one or more enabler interfaces.

An automated weapon system is comprised of a plurality of weapon subsystems; a targeting subsystem; a sensing subsystem; a decision subsystem; a device selection subsystem; and, trigger activation logic. The plurality of weapon subsystems each capable of firing a munition therefrom towards a respective selected target at a respective firing time. The targeting subsystem has a field of view in a target area and provides for identifying at least one said target in the field of view as a selected target. The sensing subsystem provides sensing of the selected target and tracking of location of the selected target through environment in the target area. The decision subsystem, determines where the selected target is located at a firing time responsive to the sensing subsystem. The device selection subsystem determines which of the plurality of weapon subsystems is the selected weapon subsystem in a best position for having munitions fired therefrom to strike the selected target. The trigger activation logic initiates firing of the munitions from the selected weapon subsystem at the firing time, so that the munition will hit the selected target.

A fire control system comprises a fixed base and a sight assembly rotatably attached to the fixed base. The sight assembly includes an optical range finder for calculating a distance to a selected target and a camera having a zoom lens assembly and an optical sensor for generating an image signal representative of a target scene including a selected target. The zoom lens assembly includes a zoom controller and zoom lens optical elements, wherein the zoom controller is configured to change a magnification of the zoom lens optical elements responsive to a calculated distance to the selected target. In a further aspect, a method for imaging a target is provided.

A single-wire serial data communications bus is established between an electronic accessory, such as an optical laser sight, and a host controller, using an externally accessible connector on the electronic accessory generally having another primary purpose, such as connection of a remote switch. The need for more complex connection schemes for calibration and control of the electronic accessory is thus eliminated. Furthermore, the single-wire bus enables a range of other host devices, such as a smart switch or an ambient light sensor module, which may provide more complex control options by sending serial control commands to the unit. Additionally, connected hosts may be parasitically powered through the communications bus to eliminate the need for separate batteries.

Systems are disclosed for navigating a missile to a target using a fixed sensor onboard the missile. In an embodiment, a system includes a launch platform traveling a pre-programmed route to deliver the missile within an area. The missile travels a first flight path through the area in effort to detect targets. If no targets are detected along the first flight path, the missile transitions to a second flight path, different from the first flight path, to locate targets off-axis relative to the first flight path. While the missile travels the second flight path, the sensor receives signal identifying a target located at a position off-axis relative to the first flight path. The missile then adjusts the second flight path to direct the missile to the target. In an example embodiment, the first flight path is straight or arced, while the second flight path is u-shaped, corkscrew-shaped, or spiral-shaped.